%% $Id$
\documentclass[12pt,a4paper,fleqn]{report}
\usepackage{latexsym,graphicx,../iman,../extra,../proof,../rail,../railsetup,../isar,../pdfsetup}
\title{\includegraphics[scale=0.5]{isabelle_isar} \\[4ex] The Isabelle/Isar Reference Manual}
\author{\emph{Markus Wenzel} \\ TU M\"unchen}
\makeindex
\railterm{percent,ppercent,underscore,lbrace,rbrace,llbrace,rrbrace}
\railterm{ident,longident,symident,var,textvar,typefree,typevar,nat,string,verbatim,keyword}
\railalias{name}{\railqtoken{name}}
\railalias{nameref}{\railqtoken{nameref}}
\railalias{text}{\railqtoken{text}}
\railalias{type}{\railqtoken{type}}
\railalias{term}{\railqtoken{term}}
\railalias{prop}{\railqtoken{prop}}
\railalias{atom}{\railqtoken{atom}}
\newcommand{\drv}{\mathrel{\vdash}}
\newcommand{\edrv}{\mathop{\drv}\nolimits}
\newcommand{\Or}{\mathrel{\;|\;}}
\setcounter{secnumdepth}{2} \setcounter{tocdepth}{2}
\pagestyle{headings}
\sloppy
\binperiod %%%treat . like a binary operator
\renewcommand{\phi}{\varphi}
\includeonly{refcard}
\begin{document}
\underscoreoff
\maketitle
\begin{abstract}
\emph{Intelligible semi-automated reasoning} (\emph{Isar}) is a generic
approach to readable formal proof documents. It sets out to bridge the
semantic gap between any internal notions of proof based on primitive
inferences and tactics, and an appropriate level of abstraction for
user-level work. The Isar formal proof language has been designed to
satisfy quite contradictory requirements, being both ``declarative'' and
immediately ``executable'', by virtue of the \emph{Isar/VM} interpreter.
The current version of Isabelle offers Isar as an alternative proof language
interface layer. The Isabelle/Isar system provides an interpreter for the
Isar formal proof document language. The input may consist either of proper
document constructors, or improper auxiliary commands (for diagnostics,
exploration etc.). Proof texts consisting of proper document constructors
only, admit a purely static reading, thus being intelligible later without
requiring dynamic replay that is so typical for traditional proof scripts.
Any of the Isabelle/Isar commands may be executed in single-steps, so
basically the interpreter has a proof text debugger already built-in.
Employing the Isar instantiation of \emph{Proof~General}, a generic Emacs
interface for interactive proof assistants, we arrive at a reasonable
environment for \emph{live document editing}. Thus proof texts may be
developed incrementally by issuing proper document constructors, including
forward and backward tracing of partial documents; intermediate states may
be inspected by diagnostic commands.
The Isar subsystem is tightly integrated into the Isabelle/Pure meta-logic
implementation. Theories, theorems, proof procedures etc.\ may be used
interchangeably between classic Isabelle proof scripts and Isabelle/Isar
documents. Isar is as generic as Isabelle, able to support a wide range of
object-logics. Currently, the end-user working environment is most complete
for Isabelle/HOL.
\end{abstract}
\pagenumbering{roman} \tableofcontents \clearfirst
%FIXME
\nocite{Rudnicki:1992:MizarOverview}
\nocite{Harrison:1996:MizarHOL}
\nocite{Rudnicki:1992:MizarOverview}
\nocite{Trybulec:1993:MizarFeatures}
\nocite{Syme:1997:DECLARE}
\nocite{Syme:1998:thesis}
\nocite{Syme:1999:TPHOL}
\nocite{Zammit:1999:TPHOL}
\include{intro}
\include{basics}
\include{syntax}
\include{pure}
\include{generic}
\include{hol}
\appendix
\include{refcard}
\begingroup
\bibliographystyle{plain} \small\raggedright\frenchspacing
\bibliography{../manual}
\endgroup
\input{isar-ref.ind}
\end{document}